/*
 * @(#)Board.java	1.22 02/07/25 @(#)
 *
 * Copyright (c) 2000-2001 Sun Microsystems, Inc.  All rights reserved.
 * PROPRIETARY/CONFIDENTIAL
 * Use is subject to license terms.
 */

package example.tilepuzzle;

import example.About;
import java.util.Random;
import javax.microedition.lcdui.*;
import javax.microedition.midlet.MIDlet;

public class Board extends Canvas implements CommandListener {

MIDlet midlet;
Display dpy;
Options options;

// this string must be exactly 15 characters long
String letters = "RATEYOURMINDPAL"; 

Font font;
Piece blankp;
Piece[] all;
Piece[][] grid;
Random rand;

// grid origin in pixels
int gridx;
int gridy;

// grid width and height, in cells
int gridw;
int gridh;

// cell geometry in pixels
int cellw;
int cellh;
int cellyoff;
int cellxoff;

// commands
static final int CMD_ABOUT	= 0;
static final int CMD_EXIT	= 1;
static final int CMD_OPTIONS	= 2;
static final int CMD_RESET	= 3;
static final int CMD_START	= 4;
static final int CMD_UNLOCK	= 5;
static final int CMD_ZLAST	= 6;	// must be ze last, of course
Command cmd[];

// state variables
static final int INITIALIZED = 0;
static final int PLAYING = 1;
static final int WON = 2;
int gameState;
boolean cheated;


void D(String s) { System.out.println(s); }


    class Piece {
	String label;
	boolean inv;
	int serial;	// serial number for ordering
	int ix, iy;	// initial location in grid coordinates
	int x, y;	// current location in grid coordinates

	Piece(String str, int ser, int nx, int ny, boolean v) {
	    label = str;
	    serial = ser;
	    x = ix = nx;
	    y = iy = ny;
	    inv = v;
	}

	void setLocation(int nx, int ny) {
	    x = nx;
	    y = ny;
	}

	boolean isHome() {
	    return (x == ix) && (y == iy);
	}

	void goHome() {
	    setGrid(this, ix, iy);
	}

	// assumes background is white
	void paint(Graphics g) {
	    int px = x * cellw;
	    int py = y * cellh;

	    if (label != null) {
		if (inv) {
		    // black outlined, white square with black writing
		    g.setColor(0);
		    g.setFont(font);
		    g.drawRect(px, py, cellw-2, cellh-2);
		    g.drawString(label,
			px+cellxoff, py+cellyoff,
			Graphics.TOP|Graphics.LEFT);
		} else {
		    // black square with white writing
		    g.setColor(0);
		    g.fillRect(px, py, cellw-1, cellh-1);
		    g.setColor(0xFFFFFF);
		    g.setFont(font);
		    g.drawString(label,
			px+cellxoff, py+cellyoff,
			Graphics.TOP|Graphics.LEFT);
		}
	    }
	}
    }


    class BoardCommand extends Command {
	int tag;

	BoardCommand(String label, int type, int pri, int tag_) {
		super(label, type, pri);
		tag = tag_;
	}
    }


void setGrid(Piece p, int x, int y) {
	grid[x][y] = p;
	p.setLocation(x, y);
}


// swap the piece at sx, sy with the blank piece
// assumes that this is a legal move
void moveBlank(int swapx, int swapy) {
	setGrid(grid[swapx][swapy], blankp.x, blankp.y);
	setGrid(blankp, swapx, swapy);
}


// swaps the pieces at (x1, y1) and (x2, y2)
// no parity checking is done!    
void swap(int x1, int y1, int x2, int y2)
{
	Piece t = grid[x1][y1];
	setGrid(grid[x2][y2], x1, y1);
	setGrid(t, x2, y2);
}


boolean isSolved() {
	for (int i = 0; i < gridh; i++) {
		for (int j = 0; j < gridw; j++) {
			if (! grid[j][i].isHome()) {
				return false;
			}
		}
	}
	return true;
}


// return a random integer in the range [0..n)
int randRange(int n) {
	int r = rand.nextInt() % n;
	if (r < 0)
	    r += n;
	return r;
}


// randomize by making random moves
void randomize_by_moving() {
	int dx, dy, v;

	for (int i = 0; i < 100; i++) {
		dx = dy = 0;
		v = (rand.nextInt() & 2) - 1;	    // 1 or -1
		if ((rand.nextInt() & 1) == 0)
		    dx = v;
		else
		    dy = v;

		if (blankp.x + dx < 0)
		    dx = 1;
		if (blankp.x + dx == gridw)
		    dx = -1;

		if (blankp.y + dy < 0)
		    dy = 1;
		if (blankp.y + dy == gridh)
		    dy = -1;

		moveBlank(blankp.x + dx, blankp.y + dy);
	}

	// now move the blank tile to the lower right corner

	while (blankp.x != gridw-1)
	    moveBlank(blankp.x + 1, blankp.y);

	while (blankp.y != gridh-1)
	    moveBlank(blankp.x, blankp.y + 1);
}


// shuffle the tiles randomly and place the blank at the bottom right
void shuffle() {
	int limit = gridw*gridh-1;
	Piece ta[] = new Piece[limit];
	Piece temp;

	System.arraycopy(all, 0, ta, 0, limit);
	for (int i = 0; i < limit; i++) {
		int j = randRange(limit);
		temp = ta[j];
		ta[j] = ta[i];
		ta[i] = temp;
	}

	for (int i = 0; i < limit; i++) {
		setGrid(ta[i], i/gridw, i%gridw);
	}

	setGrid(blankp, gridw-1, gridh-1);
}


void randomize(boolean hard) {
	shuffle();
	int ra, rb;
	int x, y;

	if (hard) {
		ra = 7;
		rb = 0;
	} else {
		ra = 0;
		rb = 7;
	}

	x = rand.nextInt() & 1;
	y = rand.nextInt() & 1;

	if (x == 1 && y == 1) {
		x = 2;
		y = 0;
	}

	swap(x, y, all[ra].x, all[ra].y);
	swap((rand.nextInt()&1)+1, 3, all[rb].x, all[rb].y);

	if ((displacement() & 1) == 1)
	    swap(1, 3, 2, 3);
}


// Compute and return the displacement, that is, the number of
// pairs of tiles that are out of order.  The blank tile *must*
// be in the lower right corner.
int displacement() {
	boolean temp[] = new boolean[gridw*gridh-1];	// all false
	int n = 0;

	for (int i = 0; i < gridh; i++) {
		for (int j = 0; j < gridw; j++) {
			Piece p = grid[j][i];
			if (p == blankp)
			    continue;
			temp[p.serial] = true;
			for (int k = 0; k < p.serial; k++) {
				if (!temp[k])
				    n++;
			}
		}
	}
	return n;
}


void resetGrid() {
	Piece temp[] = new Piece[gridw*gridh];
	int k = 0;

	for (int i = 0; i < gridw; i++) {
		for (int j = 0; j < gridh; j++) {
			temp[k++] = grid[i][j];
		}
	}

	for (k = 0; k < temp.length; k++) {
		temp[k].goHome();
	}
}


void rearrangeFunnily(boolean hard) {
	resetGrid();

	if (hard) {
		// RATE YOUR MIDP LAN
		swap(0, 0, 3, 1);
		swap(2, 2, 3, 2);
		swap(3, 2, 0, 3);
		swap(0, 3, 2, 3);
	} else {
		// RATE YOUR MIDP NAL
		swap(2, 2, 3, 2);
		swap(3, 2, 0, 3);
	}
}


void setState(int ns) {
	gameState = ns;
	switch (gameState) {
	    case INITIALIZED:
		addCommand(cmd[CMD_ABOUT]);
		removeCommand(cmd[CMD_RESET]);
		addCommand(cmd[CMD_START]);
		addCommand(cmd[CMD_UNLOCK]);
		addCommand(cmd[CMD_EXIT]);
		addCommand(cmd[CMD_OPTIONS]);
		break;
	    case PLAYING:
		addCommand(cmd[CMD_ABOUT]);
		addCommand(cmd[CMD_RESET]);
		removeCommand(cmd[CMD_START]);
		removeCommand(cmd[CMD_UNLOCK]);
		addCommand(cmd[CMD_EXIT]);
		addCommand(cmd[CMD_OPTIONS]);
		break;
	    case WON:
		addCommand(cmd[CMD_ABOUT]);
		removeCommand(cmd[CMD_RESET]);
		addCommand(cmd[CMD_START]);
		addCommand(cmd[CMD_UNLOCK]);
		addCommand(cmd[CMD_EXIT]);
		addCommand(cmd[CMD_OPTIONS]);
		break;
	}
}


public Board(MIDlet midlet_) {

	int i;

	// "global" variables

	midlet = midlet_;
	dpy = Display.getDisplay(midlet);
	gridw = 4;
	gridh = 4;

	font = Font.getFont(Font.FACE_SYSTEM,
	    Font.STYLE_PLAIN, Font.SIZE_MEDIUM);

	// REMIND update when font metrics info gets implemented
	cellw = font.charWidth('M') + 7;
	cellh = font.getHeight() + 1;
	cellxoff = 3;
	cellyoff = 0;

	gridx = (getWidth() - (gridw*cellw) + 1) / 2;
	gridy = 10;

	cheated = false;
	rand = new Random();

	// create the grid arrays

	grid = new Piece[gridw][];
	for (i = 0; i < gridw; i++) {
		grid[i] = new Piece[gridh];
	}

	all = new Piece[gridw*gridh];
	for (i = 0; i < (gridw*gridh)-1; i++) {
		int x = i % gridw;
		int y = i / gridw;
		String s = letters.substring(i, i+1);
		grid[x][y] =
		    all[i] =
			new Piece(s, i, x, y, i < (gridw*gridh/2));
	}

	// make the special blank piece
	
	blankp = new Piece(null, gridw*gridh-1, gridw-1, gridh-1, false);
	grid[gridw-1][gridh-1] = blankp;
	all[gridw*gridh-1] = blankp;

	// set up commands

	cmd = new Command[CMD_ZLAST];

	cmd[CMD_ABOUT] =
	    new BoardCommand("About", Command.HELP, 5, CMD_ABOUT);

	cmd[CMD_EXIT] =
	    new BoardCommand("Exit", Command.EXIT, 6, CMD_EXIT);

	cmd[CMD_OPTIONS] =
	    new BoardCommand("Options", Command.SCREEN, 3, CMD_OPTIONS);
	
	cmd[CMD_RESET] = 
	    new BoardCommand("Reset", Command.SCREEN, 1, CMD_RESET);

	cmd[CMD_START] =
	    new BoardCommand("Start", Command.SCREEN, 1, CMD_START);

	cmd[CMD_UNLOCK] =
	    new BoardCommand("Unlock", Command.SCREEN, 4, CMD_UNLOCK);

	// set up the listener

	setCommandListener(this);

	// set up options screen

	options = new Options(dpy, this);

	// set up initial state

	setState(INITIALIZED);
}


public void commandAction(Command c, Displayable d) {
	switch (((BoardCommand) c).tag) {
	    case CMD_ABOUT:
		About.showAbout(Display.getDisplay(midlet));
		break;
	    case CMD_EXIT:
		midlet.notifyDestroyed();
		break;
	    case CMD_OPTIONS:
		dpy.setCurrent(options);
		break;
	    case CMD_RESET:
		cheated = false;
		resetGrid();
		setState(INITIALIZED);
		repaint();
		break;
	    case CMD_START:
		cheated = false;

		if (options.funny) {
			rearrangeFunnily(options.hard);
		} else {
			randomize(options.hard);
		}

		setState(PLAYING);
		repaint();
		break;
	    case CMD_UNLOCK:
		cheated = true;
		setState(PLAYING);
		repaint();
		break;
	}
}


public void showNotify() {
	// System.out.println("Board: showNotify");
}

public void hideNotify() {
	// System.out.println("Board: hideNotify");
}

public void paint(Graphics g) {
	g.setColor(0xFFFFFF);
	g.fillRect(0, 0, getWidth(), getHeight());
	    
	g.translate(gridx, gridy);
	g.setColor(0);
	g.drawRect(-2, -2, gridw*cellw + 2, gridh*cellh + 2);

	for (int j = 0; j < gridw; j++) {
		for (int k = 0; k < gridh; k++) {
			grid[j][k].paint(g);
		}
	}

	if (gameState == WON) {
		g.translate(-g.getTranslateX(), -g.getTranslateY());
		g.setColor(0);
		g.setFont(Font.getDefaultFont());
		g.drawString(
		    (cheated ? "CHEATER!" : "YOU WIN!"),
		    getWidth() / 2,
		    getHeight() - 1,
		    Graphics.BOTTOM|Graphics.HCENTER);
	}
}


public void keyPressed(int code) {
	if (gameState != PLAYING)
	    return;

	int game = getGameAction(code);

	int swapx = blankp.x;
	int swapy = blankp.y;

	int direction = (options.reversed ? -1 : 1);

	switch (game) {
	    case Canvas.UP:
		swapy += direction;
		break;
	    case Canvas.DOWN:
		swapy -= direction;
		break;
	    case Canvas.LEFT:
		swapx += direction;
		break;
	    case Canvas.RIGHT:
		swapx -= direction;
		break;
	    default:
		return;
	}

	if (swapx < 0 || swapx >= gridw ||
	    swapy < 0 || swapy >= gridh) {
		return;
	}

	moveBlank(swapx, swapy);
	repaint();

	if (isSolved()) {
		setState(WON);
	}
}

}
